Typographical composing and casting machine.



CIMUEHLBISEN.

TYPOGRAPHICAL coMPosING AND oAs'rING MACHINE.

APPLIOATIOB FILED 00T. 20, 1910.

Patented July 1, 1913.

perm

r/Z f U; MUBHLEISBN.

TYPOGBAPHIGAL OOKPOSING AND CASTING MACHINE.

APPLIUATIOH FILED 00T. 20, 1910,

Patented July 1,1913

5 SHEETS-SHEET 2 C. MUBHLEISEN. TYPOGRAPHIGAL CoMPoVsING AND CASTINGMACHINE.

' APPLIOATIGN FILED 00Tl 2G, 1910. 1,066,032. Patented July 1, 1913.

5 BHBETHHBBT 3.

C. MIIEHLEISBN.

TYPOGRAPEIGAL COMPOSING AND CASTING MACHINE.

APPLIOA'TION FILED 00T. 2c, 1910.

1,066,032, Patented July 1, 1913.

5 SHEBTir-SHEET 4.

C. MUBHLEISBN.

TYPOGRAI'. ICAL COMPOSING AND CASTING MAGHINE .PLIGATION FILED 00T` 2o,1910.

1,066,032. Patented July 1,1913.

UNITED sTaTEs PATENT oEEioE.

-CARL MUEHLEISEN, OF BERLN, GERMAN Y, ASSIGNOR TO MERGENTHALER LINOTYPECOMPANY, A CORPORATION OF NEW YORK.

TYPOGRAPHIICAL COMPOSING AND CASTING LIACHINE.

1 ,"ooaose.

7b all wlw/'14, it may mmc/vi: l l Be it known that I, C-Aiit,MUEHLEISEN, a citizen ofthe United States of America, residing at 88Chausseestrasse, Berlin, N. 4, in the Empire of'Germany, have inventednew and useful Improvements in 'lypographical Composing and CastingMachines of which the following is a specification. y

The present invention consists of improvementsin typographical composingand cast.- ing machines equipped lwith matrices or type dies havingAmore than one face in the same surface. The terms matrix, matrices areto be hereafter understood as including type die, type diesrespectively. It has up to the present, been the practice in machines ofthis class, to provide the assembler e.,`the organ in which the line ofmatrices is composed) with a switch device'adapted to control the levelor position with reference to the line -of composition, which eachmatrix assumes before, at, or immediately after the `moment of itsentering the assembler. Coiisei quently, the single guide in 'theassembler, as well as in the organs between the assembler and thedistri-buter, and which sullicetl so long as each matrix had only onelface, had to be supplemented by an additional guide for each additionalface. In such a machine so equipped in respect of faces, switch, andguides it was possible to coinposea single line in either of the facesthroughout, or in all the faces; the switch securing the presentation onthe part of each succeeding matrix, off the desired face in the' line ofcomposition, and the guides maintaining such presentations for as longas was necessary. After a line had been composed, its .subsequenttreatment depended upon whether it consisted of inatrices or of typedies. If it consisted. of matrices, it was transferredto the castingmechanism, the latter thereupon casting a linotype from it. If itconsisted of type dies, it was transferred to the iiidenting or dented aHong or printing mechanism, which lthereupon in-y y printed on a Stripor sheet. `Ineither case, it was subsequently transferred to thedistributer. (As the present invention makes no distinction betweenmatrices and type dies, the terms matrix, matrices are used hereinafteras e including type die type dies Now in machines characterized by theabove Specicaton of letters Patent.

mentioned single guide in the assembler and Patented July 1, ,1913.14Application filed October 20, 1910. SerialvNa 588,141.

subsequent organs of the machine, all the matrices in the composed lineare held by the special device which presents lthem to the distributor,at a common level; but in machines characterized by additional guides,they are held at as many ditferentlevels as there are different faces inthe composed line.

It is no unusual thing fora .nactiine'of the class described, to haveseveralorgans concerned in the act of thetransferring the composed lineto the distributer. The assembler itself may be stationary orbe one ofthese transferring organs. In either case,

each organ must have tlie'additional guides,

and, in any case, the Organ or the last ofi the series of organs thatetfects the transferencejof the composed line, necessarily has its guideretractable from its operative pesition, to allow of the switchedmatrices returniig to the common level. The spacers in the composedlinewould be moved through the assembler with the;` matrices,

and. as they@ must occupy @predetermined pizfsition in the organ (showninvtheaccompanying drawings as the first elevator of a Mergenthaleiilinot.ype.iinachine) which con- VreyS` them tol their operativeposition, they might be moved too fa to propeilye'ngage in the saidorgam Inclined guides, suchV as are shown in thespeciticatiolngof.British Letters Patent. 12453 of 1999 as located inthe path of the l composed line from the assembler to the said organ,would be necessary to restore the spacers so moved too far, to theirengaging `yyposition. of transferring the conipipsed line as a wholealong the said path, tenils to prevent such restoration inasmuch as thetransferring device would hold the spacers nipped bet-Ween the matrices.5

The present. invention iiicludes the substi tntion for the assemblerswitch and retractable guide, of an adjustabll'ity in the assembler and,sometimes, one also in the organ that has hitherto carriedlthe v,saidguide,

The act i adjacent organ on the other; and extending ik to. as manyassembling. positions* such a way as 'to nialre them switch guides inthe manner of the well kn'own switch rails' of a permanent, Way.'

The in'entiCn includes, further, the spacer guide iii the assemblerb'eing'adjustable in the same'direeti'ori las the assembler and in beingcombined with a special horizontal spacer guide in 'the organ that isadjacentto the assembler' in the direction in which the composed linetravels through the machine, this spacer' guide being,r so positioned Aas to practically register with the engaging position'above referred to,`and also, preferably, so arranged that the adjustment 'of it eti'ectsthe adjustment of .the assembler.

rihe arrangemcnt. further consists, prefer ably, in providing 'that thespacer guide VVshall, when' adjusted, limit the adjusting motionof theassembler.

The `accompanying drawings illustrate constructional forms of theinvention which it, preferably, ta-kes'j when itis applied to the WellyknownMergenthaler liuoti-ype machine when the latter is eqnippedwithtwoface matrices.. i

`Figure `l f is a vfront; sectional Aehwat ion showing .the-machineadjusted for and dealing with lines presenting their bottom tai-esthroughout in lthe composing line; Fig. Q,

a section Aon the llino -flof- Fig. l; Fig.

5, a section on the line tl-W?, of Fig. t, and including thecooperating?r end ot' the. rst organ of the distributor; Fig'` 4, asectional elevation showing tlienlaehine adjusted for and dealing'withlilies presenting their botvtonrfaces throughoutinthe composing line-7Fig; 5, a sectionalel'eration showingjr the machine 'adjusted "fordealing 'with lines presenting., tl'ioiig tophn-esv throughout in thecomposing tine; .F.ig. (3, -asectional -eleration lshowing afmaehine fordealingr with lines each composed in both faces, adjusted .forandfdeali'ng`with lines qnfesenting'their. top facetsv thrtnigbout. inthe composing line;

. Fig. 7, sentii-.nal elet'ation 'of' the, saine .machineadjusted foranddealing with .lines .each-composed in both faces-V; Figs. S andi).

sectimial 'front elevations of a' piv ted switch for etiecting :thebefore described adjustability withontlhe adjustable-stop; Fig. 10, asectional front )elevation showing the spacerguide on the. assembler',raised; Fig. lha sectional sidefelevation from the right tion showingthtI spari-r guide in the assembler, lowered; and Fig. 123, a sectionalside elevation from the right, of Fig. lf2.

l.v l are the matrices; 3, part of the channeled assen'ibler guide downwhirh the matrices drop from their magazine on to 3,

the traveling asseinbler belt which in turn i delivers them,successively onto the inclined guide -l. down which euch matrix slidesuntil it is within reach of the .rotat ing assembler wheel 5 whichdrives it into the assembler t?.

T is the liulieoiineetinf the assembler G to the means by` which it'isreciproeated between itsl two terminal positions. One of these positionsis the line-assembling posi# lion shown in Fig. i, when the assemblerrests upon the lixrd support 8; tho other is when it` engages \\'itlrtlie fixed stop t), theremediate channel l() into und through which thecomposed line is moved into the rising andfallinzg tirstelevator ilwhenlhe latter is in the dotted line posit-ion .shown in Fig. l.

l2 is a tixed stop to limit. the rise of the irSt elevator. *"v

lf is a second iiitermediat-efchannel (known as tho spat-e barintermedia-te channel) into which the composed line is n'ioved when theelerati'ir 11 registers with it and which itidot-s when it is up to thelstop i9.

t-t is the cooperating end of the first member et the 'distribute-1 andon to which.

the e.- mposed line is threaded try-:its being moved Into the'chanu'el.15 is a depressor in the pat-h of raised` matrigfes' as they enten-"thechannel 1? to del'irtss (hein to Ath(` eomnion4 levi-hns shown in Fiji.7. j

'l`he parts inst deseril'iod 'nre :is heretofore., 16,17 bh-r t3; it,if), those iu the channel .ltll "il thos(l lin the tirs! etovaton ll j.,and tho Single one in the channel l.

At this point` it i must.- be explained that the pri-sont aiiparatuswhich. however. is Shown simply by way ot example, requires that all thematrices-tor any given liml ot" -comi o.sit.ion shall he.always:isseu'ihh'd on the same matrix guide, irrespective ot" which faceor faces are to be presented in the com posing line, and il' there ismore than one matrix guidmsueh matrices 'arrY assembled on the top one,to be afterward nun-ed by hand on to their respective guides arrordin;yto 'face desired.

23 is a -stop easily Amorablcby the oper.

:ttor into and out of the path of the assembler C 'to registrati0nwiththe channel '10, by any suitable means, c. g.,'.by being pivaretlnfixedguides in tlnx-assem-A otedugon the stationary pin 24 above the saidpath. NVhen this Stop is moved into the path of the assembler 6, itsnose-project. `beyond therstop Q .inggzhabpath fora distance equal tothat between two faces in a matrix. Consequently, when the stop 23 isout of the said path-Fig. 4, the assembler 6 will rise vto the stop 9;the bottom faces of matrices assembled in a single guide assembler willAbe in the composing line; and their feet will successively registerwith, and be moved on to and along, the top guides V18 and 20. .On theother hand, when the :stop 23 is inthe said path--F ig. 5, the assembler6 will only rise to the said stop; `the top faces of the same matriceswill be 'in the composing line; and their feet will successivelyregister with, and be moved on to and along, the bottom guides 19 and21. The channel 10 is an instance of the above mentioned respectively'adjacent organ in the direction in which the composed line travelsthrough the machine; and it is the stop 23 which provides' the desiredadjustability in the assembler with reference to the said adjacentorgan. 25 is a second stop. lts function is to provide a likeadjustability in the elevator 11 with reference to the channel 13. Itis, therefore', mounted upon the machine in such a position that it canbe easily moved by .the operator into-F ig. 4, or out (if-Fig. 5, thepath of the elevator 1.1 asI it moves 1nto cooperating position with thechannel 13. It is preferred to connect the sto 2,5 with the stop 23insuch a Way that w en the operator moves one, into the path oftherespective elevator, he moves the other out of it. The connecting meansillustrated consists of a link 26- from the stop 25 to a suitableextension of the stop 23 beyond its pivot 24. When the stop 25 is in thepath of the elevator 1.1-Fig. 4, the latter will move only high enoughto 4make ita-:top guideZO register with the guide 22.

When it is out of that path- Fig 5, the ele- 'vater 11 will move highenough to malte its bottom guide 21 register with the guide 22'. Ineither case, it will be the guide 2() or 21, having thev composed lineon it, that so registers- The elevator 11 is an instance .of the abovementioned yorgan that had its vguide retractable, while the channel 13is an instance of the respectively adjacent organ `in the direction in.which 'the composed line moves through the machine.

Consequently, the presence of the stop 23 in, or its absence from, thepath of the assembler 6 decides whether any given line shall throughoutpresent its top or its bottom faces in the composing line. If thematrices have more than two faces each, an additional stop 23, 25,' isprovided for eachfadditional face.

Referring to Figs. Gand 7, /it Will be noticed that the assembler 6 hastwo guides 1S, 17, instead of one only, (it being assumed that thematrices have two faces.) Further, that these guides are stationary withrespect to the assembler; that there is out, the stop 23 is moved intothepath of the assembler (3. The rising assembler 6 will be stopped byit with the guide 16 registering with the guide 19 of the channel 10.The guide 21 of the elevator 11 will register with the guide 19, when,the elevator registers with the channel 10;,and after itA has moved tothe stop 12, its guide 21 will register withl the Guide 22 of thechannel. 13. It, on the otherthand, the line is to present the bottomface throughout,tl'1e stop 23is moved out of the path of the assembler6, after which the guide 16 will register with the guide 18, thematrices be moved ott' it on to the guide 20 and be depressed by theAdepressor 15 as they are moved on to theguide 22.

Fig. 7 shows how a line having both faces posed line are moved manuallydown on to the guide 17, so that when the assembler G is stopped by thestop 9, both its guides 16, 17, register, respectively, with the guides18, 19, with which will register, respectively,

'the guides 20, 21 vof the elevator 11 when the latterregistersvwitlivthe channel 10.' After the elevator 11 has moved up tothe stop 12, its guideI 21 will register With the guide 22 of thechannel 13, the'higher matrices being depressed by the depressor 15 asthey are 'moved on the said guide. Themovement of the matrices on to theguide 13 threads them on to the member 14.

It will be understood that the particular form and mounting of the stops23and 25, as herein shown and described, are'not essential to theoperation oty my invention, as such stops may be differently arrangedand located and still be comprised within its spirit.

'lhe adjustability illustrated in Figs. 8 and consists in thesubstitution forthe adjustable stop 23,'of a switch uide 27 pivoted on apivot 28 transverse o the entrance to the assembler 6 so that itsopposite end,

1. e., the one next to the intermediatechanfor so setting the guide 27may be uSed.

* vFor the adjusting motion of the assembler 6 The one illustratedconsists-of a linger lever `29 working on a transverse pivot 30 carriedvby' a lug 31 depending from the bottom of -the assen'tbler (3, and alink 32 from it to the said guide 27. Any suitable means, formaintaining the guide 27 in either of its positions may be used. line isto present the same face in the comp'osing' line throughout, thc switch27 need only be single as shown in the Figs. 8 and 9, butif the saidline is to present more than one face in the composing line, theconstruction of the switch and the corresponding parts in'ust be variedto suit the-altered Con-` ditions, as willjbeobvious to those skilled-in the art, in accordance with the principles of my invention as hereinset. forth.

Referring to Figs. 10 to v13, 33, 33, are the spaeers; 34 the spacerguide on the assembler G; and 35 the special spacer guide in the channel10. The spacer guide 34 must be movable for a distance equal to thatwhich separates the 4two matrix guides 18, t!) from cach other. Theguide 34 would, therefore, be sometimes in and sometimes ont. ofregister with the spacer guide 35, but

supplen'ienting that of the guide 34 and makingl it so register, If vthecomposed line ist() present its top faces in the composing line` the.guide 34; is raised-Figs. l() and 11, with the result thatit engageswith the tixed stop 9,5 when the guide 16 registers with the guide lt)`and itself with the guide 35.

`When -the said line is`moved into andV through the channel 10, thespacers 33 will he engaged in the guide 35 and the matrices t ontt'icguide t9.L It the composed line is to vpresent itsv bottomv facesin the compositi tine. the guide is lowered-Figs. 12 an t3, withthe-result that it engages with the tixett stop S) when the guide 16registers with tltegiiidc 1S. and itself again with the guide 35. Whenlt he said line is movedinto midthrongh t he"eh:iii|`iel 10, the spacersWill again be engaged in the guide 35, audaz-the matrices 1 on the guide18. Thus,` when (he guide @nr-Ilv is dnw'ir---li`ig` l2 tlliel l3,lfl1aS farther to travel before it engages with the fixedl stop SL thanwhen it is 11p-Figs. 10 and 11. so that-. in either case, its engage-"nient with the stop 9 is coincidentiwith its registration with theguide 35.

v Figs. 1l and t3 show vthe spacer guide :t on only the rear side of theassembler ltl may, howerer, he on boththe front and rear sides.

vThe exact form and mounting of the spacer guide and assembler stop 34,as here.- in shown and described, are not essential to my invention, asit may be'ditferently fashioned and arranged and still be comprisedwithin its broad spirit; numerous equivalents to perform similarfunctions Awill then the composed 'ple face matrices, the-,combinfreadily suggest themselves to those skilledA in the art. V

In order to simplify and reduce the illustration in the drawings,v theadjustable spacer guide and connected parts have been shown only inFigs. 10,11, 12 and 1 3. Obviously, however, they also may be'used inconnection with the devices illustrated in' other figures, and it isclearly vto be understood that because of this selective illustration,their purposes and functions are'not limited to any particular form. Thecasting and distributing mechanisms in connection with which myinventionis to be employed may be of any desired construction, althoughpreferably and in .the

ple face matrices, the combination of a; plurality of organssuccessivelyoccupied by the composed line after fits assemblage, saidl organs beingprovided with-guidi means for maintaining the matrices. at' itferentrelative levels therein, with Ineansf-to vary the registration of theseveralguiding means with respect to the successive organs. f 2. In atypographical machi or multiorgan temporarily occupied by 'thecomposedline after its assemblage and provided with guiding means formaintaining the matrices at different levels therein, with theassembling organ wherein the line is composed at one level, and means toregister the assembled matrices with either' one of the several guidingmeans of the first-mentioned organl as desired. 3. Iii a typographicalmachine for multiple face matrices, thecombinationof two adjacent organssuccessively occupied by the y composed line after its assemblage, jsaidfor maintainingv the matrices atditerent relative levels, and means toalter .theregisrespect to the successive organs;

`4. In a typographical machine A ple face matrices, the combination oftwo adjacent organs successively occupied bythe composed line after itsassemblage,v .Said organs being provided with means for maintaining .thematrio i' utf-f levels, and means "for organs being provided ,withguiding means"i tration of the respective guiding means with i formultiso v f operative-relation to the said organ, and a being providedwith guiding means for means,

-5. In a typographical machine for multiple'face matrices, thecombination of two adjacent organs successively 'occupied by the 'jcomposed line'V after .its assemblage, said organs being provided'withguiding means for maintaining the matrices `at dierent levelsand1meansfor adjusting the? organs with reference to each other in the path -pur.

sued bythe assembled line so as to alt-er the registration oftherespective guiding mea-ns.

6. In a typographical machine fo-rmtiflt'iple face matrices, thecombination of two adj acentorgans successively occupied by the composedvline after its assemblage, said organsbeing provided with a pluralityof` guiding-means for maintaining the matrices at different levels, anassembling organ provided with a corresponding plurality of matrixguiding means, and devices to alter the registration ofthe respectiveguiding means ofl the said three organs.

7. In 'a typographical machine for multi! ple face matrices, -thecombination of an assembler havingv a plurality of guides to maintainthe matrices atditi'erent levels, an

j organ to lreceive the composed line therefrom, means for shifting-theassembler into stopwhose position assembler shift` Y 8. In atypographical machine for multi- .ple-Trace matrices, the combination ofassembling means, and-means for transferring the assembled linetherefrom to the casting position,'the said transferring meanscompri'sing two adjacentorgans successively occupied by the assembledline, together with means for adjusting the two organs with reference toeach other to correspond to different levels of the matrices.

9. In a typographical machine for mult-i.- ple .face matrices, thevcombination of assembling means, andmeans for transferring .theassembled line therefrom to the casting position, the said transferringmeans Ycomprising two adjacent'organs successively occupied by theassembled line, the said organs Ivaries the extent of' the maintainingthe matrices at different levels, vtogether with means to alter theregistration f of the. respective guiding means to adapt them to thedifferent levels of the matrices.

10. In ajtypographical machine for multiple face matrices, means fortransferring the assembled matrices from the casting p0- sition to thedistributer, the said transferring-means comprising two adjacent organssuccessively occupied by the mat-rices,.to- -gether with means foradjusting the two organs with reference to each other to correspond todifferent levels of the matrices.

11. In a typographical machine for multiple face matrices, means fortransferring the assembled matrices from the casting position to thedistributer, the said transfer'- ring means comprising two adjacentorgai'ss'iccessively occupied by the matrices,

one of saidY organs being provided with guiding means to maintain theVmatrices :it differentv levels, together with means for adjusting thetwo organs with reference to each other to correspond to the dilfeient`levels of the matrices. I

12. In a typographical machine for multiple -face matrices, thecombination of two adjustable organs occupied by the coin-- posed linein its vpassage through-the ma@ chine, and means'fo'r adjusting the twoorgans te adapt them todifferent levels of the matrices, together withmeans for controlling the respect-ive adjustments of the two organs andconnections whereby whenone is free to act the other is held outofaction.

13. In a typographical'machine, an assembler provided witha spacer guideadjustably mounted with reference thereto,

whereby the spacers may be supported in different positions therein.

'14, In a typographical machine, a 4movable assembler provided with aspacer guide lmounted so as to be adjustable .therein in the directionof the assembler movement,.

.whereby the spacers may be supported in different positions therein.

l5, In a typographical machinethe coin- I `bination ofan assembler andan adjacent organ to which the assembled lineis transferrcd, therassembler being provided with means for adjusting it with reference. tothe adjacent organ, and with a spacer guide adjustable with Vreferenceto the assembler to support the spacers in ll'erent positions.

16. In a typographical machine, the combination of an assembler and anadjacent organ to which the composed'line after its assemblage istransferred` the said organ being provided with va stationary spacerVguide and the said assembler being provided with means for altering itsposition relative to' the adjacent organ and with a vmovable spacerguide similarly adjustable.

17; In a typographical machine for mul`.

tiple face matrices, the combination of` a -fixed stop, an assemblermovable to and tao with one of the matrix guides in the adjacent. organ.

18. ln 4a typographical composing machine, the combination of anassembler, an adjacent organ to which the composed line after itsassemblage is transferred, and means for varying the relativepositions/of the assembler and organ, the said organ be- 'ing providedwith a horizontal spacer guide,

and the assembler provided with a spacer guide adjustable with referencethereto in the same direction as the assembler adjust` ment. i

19. In a typographical machine for muh tiple face matrices, thecombination of an assembler having a plurality of stationary guides tomaintain the matrices at different.

levels, devices to receive the composed line aftJ-f ,its assemblage, andmeans to shift the organ provided With a plurality of means to supportthe assembled line al different levels therein, and means whereby thesaid line may be assembled at one leve and delivered therefrom to one oranother of the supporting means of saidorgan, as desired.

22. n a typographical machine t'or innitiple face matrices, thecombination of a movable organ for conveying the composed line to andfrom the mold and provided with means for supporting it at lrlitl'crentlevels therein, and means whereby`the said line may be assembled at oneleve-l and .delivered therefrom to said movable organ at one or anotherof its support-ing levels.

23. In a typographical machine for mul tiple face matrices, thecombination of a movable organ for conveying the composed line to andyfrom vthe mold and provided with a plurality of means for supporting itatA ditte-rent levels therein; and a second organ to receive the linefrom the first and provided With means to supporty it at a single level,together with devices for registering one or another of thesnpportingmoans ot the first organ with the single supporting means ofthe second organ,

In a typographical machine for mnltiple face matrices, the combinationot two adjacent organs successively occupied by the assembled line, oneof said organs being provided with means to support matrices at Locatiesdifferent levels and the other provided vii means to supportmatrices atone level, said supporting means being relativelyr just-able so as toconnect those of the organ with one or another of those oi first.

25. ln a typographical machine for r3" tiple tace matrices, thecombination organ adapted to support the asseinbifr at different levelstherein, and a sec adapted tosupport said line at one 'i means wherebythe line may be tra Y. 'from its level in the second organ to another ofthe levels in the tirstmentione organ.

26. In a typographical machine tiple face matrices. the combinat.assembler wherein the line is com; the intermediate channel to receivevihr posed line' therefrom after its the said parts being adjustable todi operative positions with relation to. other.

27. In a typographical machine for tiple face matrices, the combinationoi. assembler 'and an organ to receive the sembled line therefrom, thesaid asseiinm being adjustable to different dei' sitions with relationto the said organ. f 2S. n a typographical macb'ne for met `tiple facematrices, the coi i novable assembler7 an organ 'arresting the assemblerat diderenii op tive positions with relation to the s c 4 20. ln atypographical machine -for tiple tace matrices, the combination oftrive- 'adjacent organs successively occupied by assembled line, saidorgans being adinstab to dilerent operative positions with tion to eachother. P10. In a typographical machine for meitiple face matrices, thecombination of ivm adjacent. organs successively occupied bj1 assembledline. said organs being to different operative positions with rela toeach other, and means for controllir V4 operative position, at will.

ffl@ ble 31. ln a typographical machinexer inniu tiple face matrices,the combination of an assembler, an organ to receive the assembled linetherefrom, the said assembler heine; movable to different opera ti vepositions 'with relation to the said organ, and stop devices forarresting the assembler in its sels il position.

ln witness whereof have hereunto hand in the presence of tivo Witnesses.

CARL Mllllliglillii" Witnesses Henna' Haaren, Woigonamn Harrer.

